JP2010057181A - Systems and methods for natural color gamut view mode of laser television - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a view mode using reduction color gamut similar in characteristic to a prior art television. <P>SOLUTION: A method of viewing an input video signal on a display screen of a television set includes a step of receiving the input video signal; a step of mapping the color coordinates of respective pixels of the input video signal to the color coordinate values in a color gamut selected for the television, the selected color gamut being one of full color gamuts of the television and reducing the color gamuts of the television; and a step of displaying the input video signal mapped to the color gamut on the display screen of the television. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

(Field)
Embodiments described herein generally relate to color signal processing for laser light source based televisions, and more specifically, user selectable and activity assignable reductions for laser light source based televisions. The present invention relates to a system and method for facilitating a type color gamut viewing mode.

(Background information)
Television typically uses three primary colors, red, green and blue, which define the RGB color space. In addition to using the RGB color space, televisions typically use a specific color gamut. A color space defines a plurality of colors (ie relationships between colors), but a color gamut represents a range of possible colors that can be reproduced by mixing these primary colors. Televisions that utilize laser light sources have a laser color gamut that is significantly larger than conventional televisions due to the characteristics of the laser light sources. Larger color gamut laser-based televisions can be used to display a wider variety of colors or reproduce more “brilliant” colors on the display screen, but users prefer the color gamut of traditional televisions obtain. Accordingly, it is desirable to provide a viewing mode that uses a reduced color gamut that is similar in character to conventional televisions.

(Overview)
Embodiments provided herein relate to systems and methods that facilitate reduced gamut viewing modes, and more specifically, user selectable and activity assignable reductions for laser light source based televisions. The present invention relates to a type color gamut viewing mode. In one embodiment, the television includes a video display screen coupled to the control system. The control system includes a microprocessor, non-volatile memory storing system control software, an on-screen display (OSD) controller coupled to the microprocessor and video signal input connections, and an image coupled to the OSD controller and display screen. A display engine and a laser light source coupled to the microprocessor and the image display engine. The microprocessor includes a color signal processing module or device that maps the color coordinates of each pixel of the input video signal to color coordinate values within a selected color gamut of the television.

  In another embodiment, individual color gamut settings may be saved for each activity for a suitable viewing experience for a given activity. For example, users of combination devices (eg, Playstation 3, XBOX 360, and others) that provide game and movie capabilities may have separate color gamuts for each activity (eg, “play game” and “watch movie”). You can have settings.

  Other systems, methods, features and advantages of the exemplary embodiments will be or will become apparent to those skilled in the art upon examination of the following drawings and detailed description.

For example, the present invention provides the following items.
(Item 1)
The process of viewing an input video signal on a television display screen,
Receiving an input video signal;
Mapping a color coordinate of each pixel of the input video signal to a color coordinate value in a selected color gamut for the television, the selected color gamut being the full color gamut of the television and the television One of the reduced color gamuts of
Displaying an input video signal mapped to the color gamut on the display screen of the television.
(Item 2)
The process of any preceding item, further comprising prompting the user to choose between full color gamut viewing and reduced color gamut viewing.
(Item 3)
The method further includes prompting the user to select a viewing activity, and prompting the user to select between the full color gamut viewing and the reduced color gamut viewing. A process according to any of the preceding items comprising prompting the user to choose between gamut viewing and reduced color gamut viewing.
(Item 4)
The process of any of the preceding items, further comprising assigning the selected color gamut viewing mode to the selected viewing activity.
(Item 5)
Receiving an instruction to initiate a user-selected viewing activity;
Mapping the color coordinates of each pixel of the input video signal to a color coordinate value in a selected color gamut for the viewing activity.
(Item 6)
A process according to any of the preceding items, wherein the television comprises a laser light source.
(Item 7)
The process of viewing an input video signal on a television display screen,
Receiving an instruction to initiate a user-selected viewing activity;
Receiving an input video signal;
Mapping the color coordinate of each pixel of the input video signal to a color coordinate value in a color gamut assigned to the viewing activity, the assigned color gamut being the full color gamut of the television and the color gamut. A process comprising the steps of one of the reduced color gamuts of a television.
(Item 8)
The process of any preceding item, further comprising assigning a color gamut viewing mode to each of the plurality of viewing activities.
(Item 9)
The step of assigning the color gamut viewing mode to each of a plurality of viewing activities includes:
Prompting the user to select a viewing activity;
A process according to any preceding item, comprising prompting a user to select between full color gamut viewing and reduced color gamut viewing for the selected viewing activity.
(Item 10)
A process according to any of the preceding items, wherein the television comprises a laser light source.
(Item 11)
A video display screen,
An image display engine;
A control system coupled to the image display engine;
A laser light source coupled to the control system and the image display engine;
The control system includes a color signal processing module that maps the color coordinates of each pixel of the input video signal to color coordinate values in the color gamut of the television that can be selected by the user. TV set.
(Item 12)
The television of any preceding item, comprising a microprocessor and an on-screen display (OSD) controller coupled to the microprocessor, wherein the image display engine is coupled to the OSD controller and the display screen.
(Item 13)
The control system includes a menu-based user interface, the menu-based user interface configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing. A television set according to one of the above.
(Item 14)
The television of any of the preceding items, wherein the control system includes a menu-based user interface, the menu-based user interface configured to prompt the user to select a viewing activity.
(Item 15)
The menu-based user interface according to any of the preceding items, wherein the menu-based user interface is configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing for the selected viewing activity. TV.
(Item 16)
The control system includes a menu-based user interface, the menu-based user interface configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing. A television set according to one of the above.

(Summary)
System and method for facilitating reduced color gamut viewing mode, and more specifically,
User-selectable, activity-assignable reduced color gamut viewing mode for laser-based TVs.

Details of exemplary embodiments, including manufacturing, construction and operation, may be partially collected by examination of the accompanying drawings, wherein like reference numerals indicate like parts. The components in the drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. Moreover, all drawings are intended to convey concepts, and relative sizes, shapes, and other detailed attributes may be depicted schematically rather than literally or accurately.
FIG. 1 is a schematic diagram of a laser light source based television with an integrated sound projector and control system. FIG. 2 is a graphical representation showing a color gamut for an alternative mode of operation of a laser source based television. 3A and 3B are graphical representations showing the mapping of input color signals to television color gamuts. 3A and 3B are graphical representations showing the mapping of input color signals to television color gamuts. FIG. 4 depicts a graphical user interface based menu displayed on a television screen with a color option drop-down menu displayed. FIG. 5 depicts a graphical user interface based menu displayed on a television screen with an activity drop-down menu displayed. 6A and 6B are schematic diagrams of television screens showing alternative activity selection menus in a graphical user interface. 6A and 6B are schematic diagrams of television screens showing alternative activity selection menus in a graphical user interface.

  Note that similar structural or functional elements are generally represented by like reference numerals throughout the drawings for purposes of illustration. It should be noted that the drawings are only intended to facilitate the description of the preferred embodiments.

(Detailed explanation)
The systems and methods described herein relate to laser source-based televisions with reduced color gamut mode viewing options that are user selectable and activity assignable. More specifically, as provided in the embodiments described herein, a television includes a menu-based control system that can be navigated by a user via a graphical user interface, where the user May select an alternative color gamut viewing mode. The television may be set or programmed to assign alternative color gamut viewing modes to different activities (eg, “watch movies”, “watch sports”, “play games”, etc.).

  Referring to the drawings in detail, FIG. 1 depicts a schematic diagram of one embodiment of a television 10. Television 10 preferably includes a video display screen 30 and an IR signal receiver 24 coupled to control system 12. The control system 12 preferably includes a microprocessor 20, non-volatile memory 22 in which system software is stored, an on-screen display (OSD) controller 14 coupled to the microprocessor 20, an OSD controller 14 and a display screen 30. And a laser source 18 coupled to the microprocessor 20 and the image display engine 16. The microprocessor 20 preferably includes a color signal processing device or module, which may include a software module included within the system software, where the software module includes each pixel of the input video signal. Are mapped to color coordinate values in the color gamut of the television 10.

  The system software preferably comprises a set of eye instructions that can be executed on the microprocessor 20, which enables the setting, operation and control of the television 10. The system software provides a menu-based control system that can be navigated by the user via a graphical user interface that is displayed or presented to the user on the television display 30. Although on the TV layer of the TV remote control unit, the user may configure, operate, and control TV 10 and an external AV input device (eg, DVD, VCR, cable box, etc.) coupled to TV 10. May navigate a graphical user interface. A detailed discussion of the graphical user interface based menu control system and its operation is provided in US Patent Application Publication No. 2002-0171624 A1, which is hereby incorporated by reference. The '624 application describes a menu-based control system and its operation for centralized control of audio-video components that are connected to a television and controlled using a menu-based control system having a graphical user interface.

  In operation, a user using a menu system and a graphical user interface 51 (see FIG. 4) that can be displayed on the screen 30 of the television 10 and generated by system software running on the microprocessor 20 is called “brilliant”, “ You can choose between various color gamut viewing modes of operation, including “natural”. Using a graphical user interface based menu system, the user can also generate alternative color gamut viewing modes.

Referring to FIG. 2, two color gamuts of television 10 are depicted, including full (“brilliant”) color gamut 100 and reduced (“natural”) color gamut 200. The full color gamut 100 extends between the color coordinates R _L G _L B _L and corresponds to the characteristics of the laser light source 18. The reduced color gamut 200 extends between the color coordinates R _N G _N B _N. The color coordinates R _N G _N B _N are reduced or adjusted from the color coordinates R _L G _L B _L , as depicted in FIGS. 3A and 3B.

The color coordinates R _O G _O B _O that define the output color gamut are calculated as follows.
R _O = R _i + (a * R + b * G + c * B) (1.0)
G _O = G _i + (a * R + b * G + c * B) (2.0)
B 2 _O = B _i + (a * R + b * G + c * B) (3.0)
Here, R _O = red output, R _i = red input, G _O = green output, G _i = green input, B _O = blue output, B _i = Blue input. When a = b = c = 0, R _O = R _i , G _O = G _i , B _O = B _i . In the case as shown in FIG. 3A, b and c are increased to shift the red color towards the white point W. To shift blue and green toward the white point W, increase a and b and increase a and c, respectively.

  With reference to FIGS. 4, 5, 6A and 6B, it will be discussed to configure or select a color gamut viewing mode using a television graphical user interface based multi-layer menu system. Pressing the menu key on the control panel on the television 10 or on the remote control unit presents the system configuration menu 50 to the user, preferably along the left side of the screen 30. The configuration menu 50 preferably comprises a selectable graphical icon that can be configured by a user-configurable function and / or device (eg, AV device 50, caption 54, “out-of-box” system settings 55). , Representing menu options corresponding to input device 56 and security system 58). The user can also use navigation keys or keys to indicate which keys to press on the remote control to accomplish navigation functions (eg, “Select” 82, “Move” 83, “Back” 84, and “Help” 85). A guide is presented. Highlights, such as drawn with gray shading around the menu options of AV device 52, are used to indicate the position in the menu and the selected menu item.

  When the menu option for AV device 52 in system configuration menu 50 is selected, device configuration menu 60 is preferably displayed along the top of screen 30. The device configuration menu 60 is preferably selectable graphical representing menu options corresponding to functions (eg, viewing activity 61, video 62, audio 64, reset 65, picture color 66, internet 67, sound projection 68, etc.). Includes icons.

  As depicted in FIG. 4, the user may select a color gamut mode of operation by selecting a color icon 66 in the AV device configuration menu 60. When the color icon 66 is selected, a color gamut mode selection drop-down menu 66A or the like is displayed to prompt the user to select the desired color gamut mode of operation. When the “brilliant” mode is selected, the television control system displays the image on the display screen using a television full color gamut that corresponds to the characteristics of the laser source. However, when the “natural” mode is selected, the television control system displays an image on the display screen using a reduced color gamut that corresponds to the characteristics of the color gamut for a conventional television. By selecting the “custom” mode, the user can adjust the primary colors of the color gamut to create a customized color that the control system uses to display an image on the display screen.

  In another embodiment, suitable color gamut settings can be assigned and stored for various viewing experiences or activities. For example, there are activities such as “watching news”, “watching movies”, “watching sports”, and “playing games”. As depicted in FIG. 5, the user may assign a color gamut mode of operation to a particular activity by selecting an activity icon 61 in the AV device configuration menu 60. When the activity icon 61 is selected, an activity selection drop-down menu 61A or the like is displayed to prompt the user to select a desired activity. For example, if “watch movie” is selected, an activity configuration drop-down menu 61B or the like is displayed prompting the user to select a viewing option or a listening option to configure the selected activity. When the color option is selected, a color gamut mode selection drop-down menu 61C or the like is displayed and prompts the user to select a color gamut mode of operation that is stored in memory and assigned to the selected activity. When the “brilliant” mode is selected, the control system on the television displays the image on the display screen using the television's full color gamut that corresponds to the characteristics of the laser source. However, when the “natural” mode is selected, the television control system displays an image on the display screen using a reduced color gamut that corresponds to the characteristics of a conventional television color gamut. By selecting the “custom” mode, the user adjusts the primary colors of the color gamut to create a customized color gamut that the control system uses to display the image on the display screen.

Such viewing activity can be performed on a television display screen 24 or remote control display screen, as depicted in FIGS. 6A and 6B, by selecting a dedicated activity or task key on the television or remote control panel. It can be presented on the activity menu 46 above. When a particular activity is selected, the television control system causes the image to be displayed on the display screen using the color gamut assigned to that particular activity. Preferably, by selecting a particular activity, the TV and the connected device associated with the particular activity (eg, a DVD for watching a movie) are automatically turned on and preferred for the selected activity. The correct connections and settings. For example, when “watch movie” is selected, the following operation occurs.
1. The power of the Bluray player is turned on.
2. The TV is turned on and the Blueray player is selected as the input source.
3. Movie video settings (eg, color gamut mode) are applied.
4). AVR is switched to surround mode.
5). The volume is unmuted (demuted).

  Saving a color gamut of motion and assigning it to a specific activity means that there is a multi-mode device (Media Center PC, Playstation 3, XBOX 360, etc.), playing games, watching movies, viewing photos And is particularly useful when the user wishes to set different activity preferences for each activity mode (ie, “play game”, “watch movie”, etc.). If the media center PC is selected to play a 3D game ("Play game" in the activity menu is selected), the TV is preferably in 3D mode setting when available. When the media center PC is used to play a BluRay movie ("watch movie" in the activity menu is selected), the TV implements the setting to watch that movie, in this example the 3D setting Disable. Thus, users of combination devices (Playstation 3, XBOX 360 and others) that provide game capabilities and movie capabilities will have separate optimal color mode settings for their respective activities "Play Game" and "Watch Movie". Can have.

  In the foregoing specification, the invention has been described with reference to specific embodiments of the invention. It will be apparent, however, that various modifications and changes can be made to the present invention without departing from the broad spirit and scope of the invention. For example, the reader is not limited to the specific order and combination of process operations shown in the process flow diagrams described herein, unless explicitly stated otherwise, and the present invention may be used in different process operations or additional processes. It should be understood that operations may be performed using a combination of different process operations or a sequence of different process operations. As another example, each feature of one embodiment can be mixed and matched with other features shown in other embodiments. Features and processes known to those skilled in the art can be similarly incorporated as needed. Further and clearly, features may be added or removed as needed. Furthermore, the invention should not be limited except in light of the attached claims and their equivalents.

DESCRIPTION OF SYMBOLS 10 Television 12 Control system 14 On-screen display (OSD) controller 16 Image display engine 18 Laser source 20 Microprocessor 22 Non-volatile memory 24 IR signal receiver 30 Video display screen

Claims (16)

The process of viewing an input video signal on a television display screen,
Receiving an input video signal;
Mapping a color coordinate of each pixel of the input video signal to a color coordinate value in a selected color gamut for the television, the selected color gamut being the full color gamut of the television and the television One of the reduced color gamuts of
Displaying an input video signal mapped to the color gamut on the display screen of the television.   The process of claim 1, further comprising prompting the user to choose between full color gamut viewing and reduced color gamut viewing.   Further comprising prompting the user to select a viewing activity, wherein prompting the user to select between the full color gamut viewing and the reduced color gamut viewing is a full color for the selected viewing activity. 3. The process of claim 2, comprising prompting the user to choose between gamut viewing and reduced color gamut viewing.   4. The process of claim 3, further comprising assigning the selected color gamut viewing mode to the selected viewing activity. Receiving an instruction to initiate a user-selected viewing activity;
5. The process of claim 4, further comprising: mapping the color coordinates of each pixel of the input video signal to color coordinate values within a selected color gamut for the viewing activity.   The process of claim 1, wherein the television includes a laser light source. The process of viewing an input video signal on a television display screen,
Receiving an instruction to initiate a user-selected viewing activity;
Receiving an input video signal;
Mapping the color coordinate of each pixel of the input video signal to a color coordinate value in a color gamut assigned to the viewing activity, the assigned color gamut being the full color gamut of the television and the color gamut. A process comprising the steps of one of the reduced color gamuts of a television.   8. The process of claim 7, further comprising assigning a color gamut viewing mode to each of a plurality of viewing activities. Assigning the color gamut viewing mode to each of a plurality of viewing activities,
Prompting the user to select a viewing activity;
9. The process of claim 8, comprising prompting a user to select between full color gamut viewing and reduced color gamut viewing for the selected viewing activity.   The process of claim 7, wherein the television includes a laser light source. A video display screen,
An image display engine;
A control system coupled to the image display engine;
A laser light source coupled to the control system and the image display engine;
The control system includes a color signal processing module that maps the color coordinates of each pixel of the input video signal to color coordinate values in the color gamut of the television that can be selected by the user. TV set.   The television of claim 11, comprising a microprocessor and an on-screen display (OSD) controller coupled to the microprocessor, wherein the image display engine is coupled to the OSD controller and the display screen.   The control system includes a menu-based user interface, the menu-based user interface configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing. TV described in.   The television of claim 11, wherein the control system includes a menu-based user interface, the menu-based user interface configured to prompt the user to select a viewing activity.   The television of claim 14, wherein the menu-based user interface is configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing for the selected viewing activity. .   The control system includes a menu-based user interface, wherein the menu-based user interface is configured to prompt the user to select between full color gamut viewing and reduced color gamut viewing. TV described in.

Images